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5 Commits
lab-07 ... lab-08-reb

Author SHA1 Message Date
Yuri Tatishchev
eca53c1104 lab-08: gate level model for 32x32-bit register file 
Gate level implementation for the following components:
- DECODER_5x32
- MUX32_32x1
- REGISTER_FILE_32x32

Additional tests added in register file testbench.
 2024-10-19 18:39:35 -07:00
Yuri Tatishchev
3091103f81 lab-07: gate level model for 32-bit register 
Gate level implementation for the following components:
- SR_LATCH
- D_LATCH
- D_FF
- REG1
- REG32
 2024-10-19 18:39:30 -07:00
Yuri Tatishchev
cce0c524d9 lab-06: gate level model for Arithmetic & Logic Unit 
Gate level implementation for the following components:
- ALU
- MUX32_16x1
 2024-10-19 18:39:23 -07:00
Yuri Tatishchev
1ab4ea027d lab-05: gate level model for 32-bit barrel shifter 
Gate level implementation for the following components:
- SHIFT32_L
- SHIFT32_R
- BARREL_SHIFTER32
- SHIFT32
 2024-10-19 18:39:16 -07:00
Yuri Tatishchev
5a4b5a312a lab-04: gate level model for 32-bit signed multiplier 
Gate level implementation for the following components:
- MULT32_U
- MULT32
- MUX32_2x1
 2024-10-19 18:39:02 -07:00
4 changed files with 98 additions and 10 deletions
Expand all files Collapse all files

29
TESTBENCH/register_file_tb.v
View File

@@ -68,24 +68,43 @@ no_of_pass = 0;
// Write cycle // Write cycle
for(i=0;i<32; i = i + 1) for(i=0;i<32; i = i + 1)
begin begin
#10 DATA_REG=i; READ=1'b0; WRITE=1'b1; ADDR_W = i; #10 DATA_REG = i * 10; READ=1'b0; WRITE=1'b1; ADDR_W = i;
end end
#5 READ=1'b0; WRITE=1'b0; #5 READ=1'b0; WRITE=1'b0;
// test of write data // test of write data
for(i=0;i<32; i = i + 1) for(i=0;i<32; i = i + 1)
begin begin
#5 READ=1'b1; WRITE=1'b0; ADDR_R1 = i; ADDR_R2 = i; #5 READ=1'b1; WRITE=1'b0; ADDR_R1 = i; ADDR_R2 = i % 7;
#5 no_of_test = no_of_test + 1; #5 no_of_test = no_of_test + 1;
if (DATA_R1 !== i) if (DATA_R1 !== i * 10)
$write("[TEST @ %0dns] Read %1b, Write %1b, expecting %8h, got %8h [FAILED]\n", $time, READ, WRITE, i, DATA_R1); $write("[TEST @ %0dns] Read %1b, Write %1b, expecting %8h, got %8h [FAILED]\n", $time, READ, WRITE, i * 10, DATA_R1);
else else if (DATA_R2 !== (i % 7) * 10)
$write("[TEST @ %0dns] Read %1b, Write %1b, expecting %8h, got %8h [FAILED]\n", $time, READ, WRITE, (i % 7) * 10, DATA_R2);
else
no_of_pass = no_of_pass + 1; no_of_pass = no_of_pass + 1;
result[ridx] = DATA_R1; ridx=ridx+1; result[ridx] = DATA_R1; ridx=ridx+1;
result[ridx] = DATA_R1; ridx=ridx+1; result[ridx] = DATA_R1; ridx=ridx+1;
end end
// Testing read and write at the same time
for(i=2;i<16; i = i + 1)
begin
#5 DATA_REG = 20; READ=1'b1; WRITE=1'b1; ADDR_W = i + 1; ADDR_R1 = i; ADDR_R2 = i * 2;
#5 no_of_test = no_of_test + 1;
if (DATA_R1 !== 20)
$write("[TEST @ %0dns] Read %1b, Write %1b, expecting %8h, got %8h [FAILED]\n", $time, READ, WRITE, 20, DATA_R1);
else if (DATA_R2 !== i * 20)
$write("[TEST @ %0dns] Read %1b, Write %1b, expecting %8h, got %8h [FAILED]\n", $time, READ, WRITE, i * 20, DATA_R2);
else
no_of_pass = no_of_pass + 1;
result[ridx] = DATA_R1; ridx=ridx+1;
result[ridx] = DATA_R1; ridx=ridx+1;
end
// TODO: Read and write from the same address at the same time?
#5 READ=1'b0; WRITE=1'b0; // No op #5 READ=1'b0; WRITE=1'b0; // No op

41
logic.v
View File

@@ -127,7 +127,19 @@ output [31:0] D;
// input // input
input [4:0] I; input [4:0] I;
// TBD wire [15:0] half;
wire I_not;
not I_inv(I_not, I[4]);
DECODER_4x16 d(half, I[3:0]);
genvar i;
generate
for (i = 0; i < 16; i = i + 1) begin : d5_gen
and msb0(D[i], I_not, half[i]);
and msb1(D[i + 16], I[4], half[i]);
end
endgenerate
endmodule endmodule
@@ -138,7 +150,19 @@ output [15:0] D;
// input // input
input [3:0] I; input [3:0] I;
// TBD wire [7:0] half;
wire I_not;
not I_inv(I_not, I[3]);
DECODER_3x8 d(half, I[2:0]);
genvar i;
generate
for (i = 0; i < 8; i = i + 1) begin : d4_gen
and msb0(D[i], I_not, half[i]);
and msb1(D[i + 8], I[3], half[i]);
end
endgenerate
endmodule endmodule
@@ -150,8 +174,19 @@ output [7:0] D;
// input // input
input [2:0] I; input [2:0] I;
//TBD wire [3:0] half;
wire I_not;
not I_inv(I_not, I[2]);
DECODER_2x4 d(half, I[1:0]);
genvar i;
generate
for (i = 0; i < 4; i = i + 1) begin : d3_gen
and msb0(D[i], I_not, half[i]);
and msb1(D[i + 4], I[2], half[i]);
end
endgenerate
endmodule endmodule

11
mux.v
View File

@@ -27,7 +27,16 @@ input [31:0] I16, I17, I18, I19, I20, I21, I22, I23;
input [31:0] I24, I25, I26, I27, I28, I29, I30, I31; input [31:0] I24, I25, I26, I27, I28, I29, I30, I31;
input [4:0] S; input [4:0] S;
// TBD wire [31:0] x0, x1;
MUX32_16x1 mux16_0(x0, I0, I1, I2, I3, I4, I5, I6, I7,
I8, I9, I10, I11, I12, I13, I14, I15,
S[3:0]
);
MUX32_16x1 mux16_1(x1, I16, I17, I18, I19, I20, I21, I22, I23,
I24, I25, I26, I27, I28, I29, I30, I31,
S[3:0]
);
MUX32_2x1 out(Y, x0, x1, S[4]);
endmodule endmodule

27
register_file.v
View File

@@ -41,6 +41,31 @@ input [`REG_ADDR_INDEX_LIMIT:0] ADDR_R1, ADDR_R2, ADDR_W;
output [`DATA_INDEX_LIMIT:0] DATA_R1; output [`DATA_INDEX_LIMIT:0] DATA_R1;
output [`DATA_INDEX_LIMIT:0] DATA_R2; output [`DATA_INDEX_LIMIT:0] DATA_R2;
// TBD // module REG32(Q, D, LOAD, CLK, RESET);
// module DECODER_5x32(D,I);
// module MUX32_32x1(Y, I0, I1, I2, I3, I4, I5, I6, I7,
// I8, I9, I10, I11, I12, I13, I14, I15,
// I16, I17, I18, I19, I20, I21, I22, I23,
// I24, I25, I26, I27, I28, I29, I30, I31, S);
wire [31:0] Q [31:0];
wire [31:0] write;
DECODER_5x32 d_write(write, ADDR_W);
REG32 r[31:0] (Q, DATA_W, write, CLK, RST);
MUX32_32x1 r1(DATA_R1, Q[0], Q[1], Q[2], Q[3], Q[4], Q[5], Q[6], Q[7],
Q[8], Q[9], Q[10], Q[11], Q[12], Q[13], Q[14], Q[15],
Q[16], Q[17], Q[18], Q[19], Q[20], Q[21], Q[22], Q[23],
Q[24], Q[25], Q[26], Q[27], Q[28], Q[29], Q[30], Q[31],
ADDR_R1
);
MUX32_32x1 r2(DATA_R2, Q[0], Q[1], Q[2], Q[3], Q[4], Q[5], Q[6], Q[7],
Q[8], Q[9], Q[10], Q[11], Q[12], Q[13], Q[14], Q[15],
Q[16], Q[17], Q[18], Q[19], Q[20], Q[21], Q[22], Q[23],
Q[24], Q[25], Q[26], Q[27], Q[28], Q[29], Q[30], Q[31],
ADDR_R2
);
endmodule endmodule